Silkworm Genome Informatics Database

Gene

KWMTBOMO02649 Validated by peptides from experiments

Pre Gene Modal

BGIBMGA002651

Annotation

PREDICTED:_myosin-2_heavy_chain_[Bombyx_mori]

Location

Bomo_Chr5(-):7880048-7922168 View in EpiBrowser

Location in the cell

Nuclear Reliability : 3.561

CDS

ATGGTGGAAGTCAAAATAACTGATGACATTAGAATTGGCGGCAATAATCCGTGTTTTATAATAGCGGAAGCGGGACAGAATCACCAAGGTGACATCGAGATCGCAAAAAAATTAATAAAAGCTGCTAAGGAAGCTGGAGCTAGCTGCGTGAAGTTTCAAAAGACATGTCTCGGAGAGAAATTTACAAAAAAATATCTAGAAAGGCCTTACGACAACCCAAACTCGTGGGGAAAGACGTACGGAGAACACAAAAGTCATTTGGAATTCTCCGATACACAATACAGAGAATTGTTTAGATACGCTCAGGAGGTCGGGATTTTATTCACCGCCTCTGCCATGGACATGGTATCTTTTGACTTTCTGGTTAACCTAAAAGTGCCATTTATCAAAATCGGCTCAGGGGACTCGAACAACTTGCTCTTCCTAAAGTACGCTGCTTCGAAAAAGATTCCTTTAATTATATCAACGGGGATGGTCGACAAAACTGCCGTAAAGACAATTTACGATATCATTTCCTCGGACCACAAGCAGTTCTGTTTGCTTCATTGCATATCGGCGTATCCGGTGCCATTTGAAGACTGCAATCTGACTGTTTTACAAGACTATAAGAATACTTTTGACGTTCCCGTTGGATACTCCGGTCAAGAGCTCGGCACCGCAGTCGCACTGGGTGCGGTTGCTTTAGGCGCAAAGGTGCTAGAAAAACATATAACTCTGGATAAAAGCATGAAGGGAACTGACCACGTTTGTTCATTAACTCCGTCCGAGTTTCAGCAACTGGTTCGCGACGTGCGCGTCATCGAAGCCTCACTTGGAACTCCCATTAAAAAAGTAGTGACATCAGAAATACCATGCATAGACAAATTACAAAAATCTCTAGTGATGGGCTCAACTAAAAATAAAGGTGAGATATTATATCCGGGTGACGTGAAGATCAAGGTCGCGGAACCAAAAGGCCTGAACGCGCTTCACTTGGAAGACGTTATATACAAAACTCTAGTATACGATAAGAAAGAAGATGAACCCCTTAACGAAGGCTTCCACCCGCAAGTGCGGTGGCCGACGCGTTGCAAACGCTGTTTCCGCGACTATAAGGAACACGGTGGCGGCAAGAAAAAAGATGATGATTTTACCGCATCCACACCCAGCCTTTCCTCTTGGAACTCACCGACATCACGAAGCCGTGACGGAGAGAATGGTGCAGCAGAAGGGGACAAGGTTGGCCGGGGTTGGGCTTCGAGTACCAACCTTAGCTCCATCGAGTCAACCAAAAAGGACACTTTTTCCACAGGATTCAATAAAAACAATACGTCTTGGACATCGACGCCGGATCTGGGTGCTGACGGCAGCGACTCAAACGCCGTCACAGTCAATCTCAAGCTACCCAAACGACGCCTTACGGGCCCATTACCGGATTTGGACACAGGCCAAACAACTAATGACACAGTTACATTACGTCGGCCGTCACCATCGCCGCCCCCGTCCGCAGGCTCCCAGACTCAGCTCGCAATAACCAAGAATGACTCACTCGCTGAACGTGTGCGAAAGATGCAGCTGTTAAAAACGCAGAATAGTTTTGAAAAGGAGCCAAGTATAGAGAAAGAAAGAGAGCGAAGAAGTTTGTCCAAAAGTAAAGAAGATGAAAAGACTGCTAGATATAAAGACGAACGGTCATCGACCAAAGATGATGTAAACTTTTTAATGCAGGTAAAGAATTCTCGGAATTCAACGAATTTGAAACCCCCCGTTCGAGGAGGTCCGTCTAAGGACAAAGATGAGTCTGATGATGAAACGAGCACCACCACCGAAACTACTTTAGTGGATTCCAACGTTAAAGAATATCAGGATCAAATAGAGGGCTTAAAACAAGAAGTAGATATTTTAAGGAAACGTTGTGAAAGAGTGGAGAAAGAAAAAAGCGACATTCTTCTACGCAGACTCGCTAACATCGACACGGCGAATAAATACACGACAGGACGATCATCGGAAGTACTAAAACTACAACAGAAAGTAAACGAATTAACTACGCACAATGAGGATCTCAGGGATGAGAAAAAACACCTAACTCAGAAAATTAGGGAAATTGAGAGTGAGCTTGAGACTCGGCCGTCAACTGAAGCTCAGACCCGTCAGATTGAGCAGCTACGAGCCAAGTTGTTGGCGGCCGAAACGTTATGTGAAGAATTGATGGATGAGAATGAAGATATGAAGAAAGAACTACGGGATCTTGAGGAAGAAATCGAAGAGATGCAAGATAATTTTAGAGAAGATCAGGCCGACGAATATTCATCCCTGAGACGCGAATTAGAGCAGACCATTAAAAATTGCAGAGTTTTATCATTTAAATTAAAAAAGACTGAAAGGAAAGCCGATCAATTAGAACAAGAAAAAGCTGAACACGAGAAGAAATTATTAGAGATAGTCGGAGGACCCGACGGCATGCAGCGGGAAAATAGGATTAAAGAGTTGGAACAAGAAGTTGCGCGATCTACTGAGGTGGCGCTAAGGCTACAACGCGAGCTGGCTGAAGCAAACTCAAAGTTCACCGGATCAAACCCAAGCCTCATGAAGGTTCCCCAACCCGAAACAGTTAAAGTGTCCCGATCGTCACTCACTCGAGGAGGTAGCCAAGAAGACCCCGCACAGCTTCTTAGAGATCTGCAGGACTCTTTAGAGAGAGAAGCAGACTTACGGGAGCAACTACGCAATGCAGAAGAAGAGGCAAATAATTTGCGTAAAACAGCGGCACGTGTAGAAGAGGACAATGAGTCCTTACTGCTACAGCTGAAGAAAATGGCTACCAAAGCCAGAAGTCGTAAACTGTCCCCTACGCCTCCAGCCAACAAGCTTAGCATTGAAACAGCTAATGATAATGATGAAAAAGAAACCGACGAAGCGGACCCCGCGGAGATGAAATTGCTTTTAGAACTTAATGAACAGGAGGCTACAGTATTACGAAGAAAAGTCGAGGAATTGGAACAAGATAAAGAAGCACTTAAGAAACAAGTCAAGGAGCTAACTAGCAAGATTTCAAGTGTGACTAAAACTAGTGCCGGATCCAATACCACCGCGCGGCGTAGTTTGACTACTAATAGCAATAAATTAGCAGAAGAGCGTGTTAAGGTATTAGAAGATGAAATAGACGAAGTAAGGAAAAAGCTTATAGAAAAAGAACGTGATTGTGAAAGACTACACGCTGAACTCAGTTTGGCGCAAAAGAAACCTAAAACACTTATTAAAAGCAGATCGTTAGACGCTAGTGATCAACAGAATGTGGACCTCAAGCGGCAACTGCAAGTAATAGAACAAGAGGCCAGTGTGTTGAGAGCCAAAACCCAAAGTCTTGAAGCTGATAACGAAAAATTGCAGACAGAAAATAAAAAGTTACAGCTTTTGAAAAATGCGAAGTCATTAAGATCTGATAAAGCATTAGATCTCAATACCAAAAAAACAACTCAACTAGAAAACGAACTCAAAGAAGCTTTAGCTAAAATAAAAGAACTAGAAATGATTTGTCAAGATGAAAAATCAGAAAAAAAAGTAAGATTTACTGAGGCAACTAAAAAAGAAACAGATACCTTGAAATCAAAACAAGATGAATTAGATAAATTAAAACTAAATCTTAGCAAGTTAGAAAAAGAAAACTTAAAGCTTCAAGCAACACTGAAATCACTCAAAGATGATGCACAAAAATCTTTTAAGCCAAGAATTCCAAAGAAACCAACTGATTTAACAACTAAACTTCAACTCAAAAAAATGGTTGAAGATTTGGAATGTGAAATAGGGGAGATGTATGTTGTGATGAAAAACGCAGGATTATCTGGTAAGGAAATGACCGCAAAAACTAAATTAGAAAAAGAAATAGATGAAATTCGTTCCAAACTGTCGAAGAACGACTCAGAATTCACAAACGAAAAGAATAGATTACAAACTGAAATAGCAAAACTAAAAGATGTCAATGCTAAATTAGAAGGTGATAAAGATGTGTTTGCCAATAAATATAAAGCTCTTGAAAATGAAAACAGCAATTTAAGCAATCAGTGCAAAACGCTTACTGAAGAAATGAAAAATAGAGAGGCTCAAATAAACAAATTGAGTGCTGATCTCAAAAACGCAACATCTCTTCAAACCACAATGTCCGATTGTATGAAAAAAATAGAAGATCTGAAAAAAGAAATAGATAGCAAAGACAAAGATATAGAAAAACTAAAAAAACAAGTGGACAATTATACAAAAATAGACCAGGATAAGAATAAGTTGCTCAAAGAGGTTGGCGATAAAACTAAAAAAATAGGCGATTTAGAAAAGAAATTAAAGGAAGCAGAAGAAAAATGTAAACGTATAGAGAAACAACTTTCGACACGTAAAGATCGTGTAACCAAACTTGAAAAAGAGCTTTCGGAAGAAAAAGAACAAGCAGTCGTGTTGGCCAATACACATAGACGACTATCAATCGAATTAACGAGCGAGAAAGATGAACTACAAGCACGATTTATTAAAACCGAAAGTAAATTCATAACGTTAGAGGCCGAAATGAGAGATTTGAAAGCTGACTATGAAAATAAAATCACTTCTCTGGAATCAACAATAGCCGCTAAAGACGTTCATATTAAGCAACTGGAAGACGCATTAAGGCAAACTACTAATGATAAATACGACGAAGCAACATCACCTGTCGAGATGGTAGAAATGAGGGAGAAGCTTGAGAAGACTAGCAAAGAACTCAAAGAGAAGCAAGATGAATTGAACAATGCTAAAATTAAACTAGAAAAGACTGAAGCAGAATCATCCGCTGCGAAACTTGAAATGGCACAGCTCAAATCGGACTTAGCGAAATTAGAAAACGAATATAAGGAACAAGAGAAAAAGGTGCAAGCTGAAAAGAAGGAATCCAGTTATTGGGAAAATAAAGCCAAAGAACTCGACACTGACCTGCAGTCGGAGCGCAAGAAACTCGACCGGATGCGTATTGCTCATGACAAAGATGTTAAAAATAAAGATGCAGAGCTAGCCACGCTCAAGGGTAAACTTAAGATTCTTGAACAAAATTCTGGAGCAGGAGCGAAGAGAATCACGGAGTTGAAACAAGAATATGAAGAGACAGTCAAAAAACTTGAACATTCTTTAGCTCTTGAAAAGGCAGAATATGAGGAGCTAACAGGAAAATATGAACTATTAGAGGAAGAACATGTGGTCACAAAAGCAAGACTGACTGTGGAAAAGGAACAAGCGCAGGGAGAACTTTTACATGTACAAAAAGAATTAAGTACTGCCTTAGGTGAAATAAAGACACTGCAAGAAAAACTTGGAACTGAATCAGCAGCATGGAATACGGAGAAAACGGAAATGCAGAACTCGATAGCGTCTCTGCAAGAACGTTTGTGCGGTGGAGGGTGGGAGGTCGAGCGTGCCCGTCTCAACGCGCGCCTGGACCAGAGAGAACGGGAGCTCCGAGCTGCCAACGACAGACGCGATGTGCTCGAACATCACCACGACCTTGCCAAGAAAGAGCTAGAGGAGTCCCGAAAGAAATTGGAAGATTACGAAAGAGTTTCTAAAATACAAAGAAATCTTACAACAGAAAATGCAGAACTGGAACGGGAGTTGGCAGCTTTGAACAATAGAATAGAACAATCCGAAAAGGCTAGAAAGGCCGAAATCACGGACACTAAGACGAGATACGAAGGGCAGATGAACACAATGCGCGATGAACTCAAATCCTTACACAACCAGGTTTCGAGATTTAGGAGAGAAAGAGATAACTATAAGCAAATGCTCGAAGCCGCACAGAAGTCGATGGCTGAGATTAAAAATGGAGACAAAAGCGCTAGAATTCATCGTAACTCAATATCCAGCACAGATGAAGAAGAATATCGCAACAAAGTCGCTTTGCTGGAACAACAGGTTGCTTGTCTCGAAGATGAGCTGTGTGAATCGCGGCTACTAGCTTCAAAACTTAACACGGAGCTTGTTAGCGAAAAGTCATCTGCCGAAGTACGCCTCGCGGAAATGCAATCCAGACTAAATGAGTACGAGGAAGAGAGACTATTGTCGTCAGGAAGAGCGCGCGTGGCTGGTCTCGCGACCCGAATGGAACTGGCGTGGCACAAGGAACGCGATGAACAACAGCGGCTGTTACAAGAGACGTCCACGCTCGCCAGAGACTTGAGGCAGACTCTTTTCGAATTGGAAAGAGAGCGTGAAAAAGAGAGGTTAGATATGAAGAGACGAATCGATCAGCTCAAGAGGACCACGGAGGAAGAAACCGAAGAGGCCAAAAAGAAGGTGACGGAGTTACAGTGCGACTTATTGGAGTTACGCGACGCACACGCCAAACTGCGTACAACCAATGAGAAGTTGCGCCGCGATAAAGAGAGGCACGATCGAGATCGCGACCAGAACAAATTACTTGTCGCTTCATTGAAACGTGCTCAACAGGAGGACGACAGGGTGATAGCACAGCTCTTAGAAACAATAGACGATCTAATGAAGCAAAGCCCTGATCTATTCCGCGTTGAAATTCCCGTTAAACCGGAGAAAACTCTGATGACACCAACACCGCCTCGTCGTAACAGGTCTTCGAAATCTCGTTCCCGCTCAGCAACTCCTGAGACTAACGAAGCAGCCGGGGCTAAAGATACGGCGGCCAGACTGCGCAGACTCACCGACGAACTAAGGGCTTCTCGTATCGCCGAGCGACAGCGGCGACAGCAAGCCAGCGCAAGGAGAGCAATGTCGACGGAGCCCCGTGATACTTTGTCGGTGACGCCCGCCACGAGCCGGACCCCATCTCGGGCACCGTCGTTAAAGAAGCGATCCATCTCACTGGAACAGACAACTAAGGAACAGAGCTCGATATGGAAGTCCGTTGATGAGAGTAGTGTGTCGTCGTTGCAATCACTGGAAGGAGACAATGATCATCGTCACTTCACTATGCCTCGGGATACCAGTCTCGACAGTCGATTATCCGGTGGGTCTGCTCAGAGTGACGTCTTACCCAACGAAAAAAAGAAGAAGAAAAGCATCTTTGGAAAATTGAAGAAACTGACTAAATCACGATCCATCGATGACCAAGCCGATCCCGAAATTGTCGATTTCAGACCTATCGGTACCGTATCGCAGGGCTCCGATTCCGACATGAGCACAGCTGGGAGCAAACGCGACTTACGTGGACGACTCTCTGATATGTTCAGCAGGAAACAGGTTTCTCGCGGCAACAGTAAAGAACTAAGTCCCGAAAGGCCAGCAAGCGCAATGGGAAGCACTACGAGCGCCTCACGTACCATGCTACGCAATACGAGTACTACAACGCTGACGCGAACCTCACCCGCCAAACCGAACGAATTCTCAAGTACGCGATCATCGAGTGCCACTCCGGCGACGAAAAGAAAAGGAAAATAA

Protein

MVEVKITDDIRIGGNNPCFIIAEAGQNHQGDIEIAKKLIKAAKEAGASCVKFQKTCLGEKFTKKYLERPYDNPNSWGKTYGEHKSHLEFSDTQYRELFRYAQEVGILFTASAMDMVSFDFLVNLKVPFIKIGSGDSNNLLFLKYAASKKIPLIISTGMVDKTAVKTIYDIISSDHKQFCLLHCISAYPVPFEDCNLTVLQDYKNTFDVPVGYSGQELGTAVALGAVALGAKVLEKHITLDKSMKGTDHVCSLTPSEFQQLVRDVRVIEASLGTPIKKVVTSEIPCIDKLQKSLVMGSTKNKGEILYPGDVKIKVAEPKGLNALHLEDVIYKTLVYDKKEDEPLNEGFHPQVRWPTRCKRCFRDYKEHGGGKKKDDDFTASTPSLSSWNSPTSRSRDGENGAAEGDKVGRGWASSTNLSSIESTKKDTFSTGFNKNNTSWTSTPDLGADGSDSNAVTVNLKLPKRRLTGPLPDLDTGQTTNDTVTLRRPSPSPPPSAGSQTQLAITKNDSLAERVRKMQLLKTQNSFEKEPSIEKERERRSLSKSKEDEKTARYKDERSSTKDDVNFLMQVKNSRNSTNLKPPVRGGPSKDKDESDDETSTTTETTLVDSNVKEYQDQIEGLKQEVDILRKRCERVEKEKSDILLRRLANIDTANKYTTGRSSEVLKLQQKVNELTTHNEDLRDEKKHLTQKIREIESELETRPSTEAQTRQIEQLRAKLLAAETLCEELMDENEDMKKELRDLEEEIEEMQDNFREDQADEYSSLRRELEQTIKNCRVLSFKLKKTERKADQLEQEKAEHEKKLLEIVGGPDGMQRENRIKELEQEVARSTEVALRLQRELAEANSKFTGSNPSLMKVPQPETVKVSRSSLTRGGSQEDPAQLLRDLQDSLEREADLREQLRNAEEEANNLRKTAARVEEDNESLLLQLKKMATKARSRKLSPTPPANKLSIETANDNDEKETDEADPAEMKLLLELNEQEATVLRRKVEELEQDKEALKKQVKELTSKISSVTKTSAGSNTTARRSLTTNSNKLAEERVKVLEDEIDEVRKKLIEKERDCERLHAELSLAQKKPKTLIKSRSLDASDQQNVDLKRQLQVIEQEASVLRAKTQSLEADNEKLQTENKKLQLLKNAKSLRSDKALDLNTKKTTQLENELKEALAKIKELEMICQDEKSEKKVRFTEATKKETDTLKSKQDELDKLKLNLSKLEKENLKLQATLKSLKDDAQKSFKPRIPKKPTDLTTKLQLKKMVEDLECEIGEMYVVMKNAGLSGKEMTAKTKLEKEIDEIRSKLSKNDSEFTNEKNRLQTEIAKLKDVNAKLEGDKDVFANKYKALENENSNLSNQCKTLTEEMKNREAQINKLSADLKNATSLQTTMSDCMKKIEDLKKEIDSKDKDIEKLKKQVDNYTKIDQDKNKLLKEVGDKTKKIGDLEKKLKEAEEKCKRIEKQLSTRKDRVTKLEKELSEEKEQAVVLANTHRRLSIELTSEKDELQARFIKTESKFITLEAEMRDLKADYENKITSLESTIAAKDVHIKQLEDALRQTTNDKYDEATSPVEMVEMREKLEKTSKELKEKQDELNNAKIKLEKTEAESSAAKLEMAQLKSDLAKLENEYKEQEKKVQAEKKESSYWENKAKELDTDLQSERKKLDRMRIAHDKDVKNKDAELATLKGKLKILEQNSGAGAKRITELKQEYEETVKKLEHSLALEKAEYEELTGKYELLEEEHVVTKARLTVEKEQAQGELLHVQKELSTALGEIKTLQEKLGTESAAWNTEKTEMQNSIASLQERLCGGGWEVERARLNARLDQRERELRAANDRRDVLEHHHDLAKKELEESRKKLEDYERVSKIQRNLTTENAELERELAALNNRIEQSEKARKAEITDTKTRYEGQMNTMRDELKSLHNQVSRFRRERDNYKQMLEAAQKSMAEIKNGDKSARIHRNSISSTDEEEYRNKVALLEQQVACLEDELCESRLLASKLNTELVSEKSSAEVRLAEMQSRLNEYEEERLLSSGRARVAGLATRMELAWHKERDEQQRLLQETSTLARDLRQTLFELEREREKERLDMKRRIDQLKRTTEEETEEAKKKVTELQCDLLELRDAHAKLRTTNEKLRRDKERHDRDRDQNKLLVASLKRAQQEDDRVIAQLLETIDDLMKQSPDLFRVEIPVKPEKTLMTPTPPRRNRSSKSRSRSATPETNEAAGAKDTAARLRRLTDELRASRIAERQRRQQASARRAMSTEPRDTLSVTPATSRTPSRAPSLKKRSISLEQTTKEQSSIWKSVDESSVSSLQSLEGDNDHRHFTMPRDTSLDSRLSGGSAQSDVLPNEKKKKKSIFGKLKKLTKSRSIDDQADPEIVDFRPIGTVSQGSDSDMSTAGSKRDLRGRLSDMFSRKQVSRGNSKELSPERPASAMGSTTSASRTMLRNTSTTTLTRTSPAKPNEFSSTRSSSATPATKRKGK

Uniprot

A0A1Y1KN54 A0A1Y1KQZ7 A0A146KRK7 A0A146MF95 A0A146KMG1 E0VUT3 + More

Pubmed

28004739 26823975 20566863

EMBL

GEZM01078221 JAV62832.1 GEZM01078217 JAV62841.1 GDHC01019508 JAP99120.1 + More
GDHC01001243 JAQ17386.1 GDHC01021694 JAP96934.1 DS235793 EEB17139.1

Proteomes

UP000009046

Pfam

PF11365 SOGA

Interpro

IPR027881 SOGA

ProteinModelPortal

A0A1Y1KN54 A0A1Y1KQZ7 A0A146KRK7 A0A146MF95 A0A146KMG1 E0VUT3 + More

PDB

6NCS E-value=1.59875e-26, Score=304

KEGG

101736069 no KO assigned | (RefSeq) myosin-2 heavy chain

GO

GO:0005615 GO:0010506 GO:0003824 GO:0016051 GO:0008270 GO:0016021 GO:0006812 GO:0015299 GO:0006631 GO:0006635 GO:0006281 GO:0048384

Length:

2466

Number of predicted TMHs:

0

Exp number of AAs in TMHs:

0.67011

Exp number, first 60 AAs:

0.00124

Total prob of N-in:

0.03328

outside

1 - 2466

Pi

249.554904

Theta

196.029352

Tajima's D

0.594406

CLR

1.566559

CSRT

0.548522573871306

Interpretation

Uncertain

Source	Sequence	Identity	Evalue
25044914	IGGIGTVPVGR	100.00	6e-09
28556443	VMPAVVIR	100.00	7e-06
25044914	NTDYYNIVQQR	100.00	0.008
28467696	NTENEYSTPASDPK	100.00	0.008

Sequence

Summary

Ontologies

Topology

Population Genetic Test Statistics